Aripiprazole, (+)terguride, OPC-4392 and (-)3-PPP have been classified as dopamine D(2) receptor partial agonists based largely on their activity in second messenger-based assays of dopamine D(2) receptor signalling. Nevertheless, signal transduction amplification might result in these compounds behaving as dopamine D(2) receptor full agonists at a more downstream level of signalling. We compared the intrinsic activity (E(max), expressed as a percentage of the maximal effect of dopamine) of aripiprazole, (+)terguride, OPC-4392 and (-)3-PPP using second (calcium (Ca(2+)) mobilization) and third (extracellular signal-regulated kinase 2 (ERK2) phosphoprotein expression) messenger readouts of cloned human dopamine D(2long) (hD(2L)) receptor signalling in CHO cells. These compounds were all less potent and displayed lower intrinsic activity in the Ca(2+) assay (aripiprazole = 24.3%, (+)terguride = 56.9%, OPC-4392 = 58.6% and (-)3-PPP = 75.1%), and aripiprazole (E(max) = 54.5%) displayed a substantially lower intrinsic activity than (+)terguride (E(max) = 92.3%), OPC-4392 (E(max) = 93.1%) and (-)3-PPP (E(max) = 101.1%) in the more downstream-based ERK2 phosphoprotein expression assay. These drug effects on Ca(2+) mobilization and ERK2 phosphoprotein expression were mediated through dopamine hD(2L) receptors, as they all were blocked by (-)raclopride, whereas (-)raclopride and other dopamine D(2) receptor antagonists (haloperidol, risperidone, ziprasidone, olanzapine, clozapine and quetiapine) were inactive on their own in both assays. These data are consistent with clinical evidence that only dopamine D(2) receptor partial agonists with a sufficiently low enough intrinsic activity will prove effective against the positive symptoms of schizophrenia, and also highlight the importance of using downstream-based assays in the discovery of novel D(2) receptor partial agonist therapeutics.